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ers were added to increase fuel and coolant | temperature, a large heavy-duty battery was fitted and |
ter is ionic, atomic, or molecular, and the | temperature and density of the matter. |
in slightly alkaline water conditions and a | temperature of around 72°F (22°C). |
sity, magnetic field strength, and electron | temperature. |
- 7.2 pH, a water hardness of 12 dGH, and a | temperature range of 22 - 25°C (72 - 77°F). |
sed to estimate the free energy and melting | temperature of a nucleic acid duplex. |
ce of large magnetic field strength and low | temperature, one can observe the quantum Hall effect, w |
starts to boil, heating is stopped, and the | temperature starts to fall. |
ting stall points and aircraft speed) and a | temperature gauge. |
pH of 7.0, hard water: (100-150 mg/l) and a | temperature of 21-28 C (70 to 82 F) . |
in plant species distributions, and include | temperature, water availability, light, and soil nutrie |
the time-varying and non-spatially-uniform | temperature field within the material body. |
the winter season, the air is crisp and the | temperature at night will usually fluctuate between the |
ction, breathing, muscle activity, and skin | temperature. |
the region is the fluctuating day and night | temperature. |
at used blood pressure, heart rate and body | temperature as variables. |
At a pressure of 130 kbar (13 GPa) and room | temperature, the body-centered cubic ferrite powder tra |
options to account for air pressure and air | temperature to calculate the value of ozone. |
m of steeply rising salinity and increasing | temperature. |
The hydrogen lines and effective | temperature of the star are similar to spectral type A8 |
The humidity should be around 80% and the | temperature 25-27 degrees Celsius. |
The duration of each stage and the | temperature that the pellets are subjected to have a st |
5 pH, a water hardness of 8 - 15 dGH, and a | temperature range of 68-77 °F (20-25 °C). |
H of 6.8 to 7.8, a hardness of 20 DH, and a | temperature of 10° to 25° C (50° to 77° F). |
- 6.5 pH, a water hardness of 10 dGH, and a | temperature range of 75 - 86 °F (24 - 30 °C). |
etween degree of polymerization and melting | temperature for polyethylene. |
Because of its high melting point and good | temperature stability, polymethylpentene is used for au |
ample assumes the same engine speed and air | temperature. |
g) to be 1 atmosphere (1013.25 hPa) and the | temperature is usually 20°C for both sample and water b |
x weeks, depending on the species and water | temperature, the male gives birth to hundreds of live, |
0 pH, a water hardness of 2 - 25 dGH, and a | temperature range of 70 - 75 °F (21 - 24 °C). |
ter summers and drier winters, and seasonal | temperature differences more extreme, showing a more co |
0 pH, a water hardness of 2 - 25 dGH, and a | temperature range of 70 - 75°F (21 - 24°C). |
is only 4.3% of the solar radius) and high | temperature of 13,000 K (12,700 °C; 22,900 °F). |
to the ASME code has its own MDMT, and this | temperature is stamped on the vessel nameplate. |
optimum pH for activity is 7.0, and optimum | temperature is 35ºC. |
ate is very dry throughout the year and the | temperature can be as high as 40°C |
ic at low oxygen partial pressures and high | temperature. |
GC content and melting | temperature must also be taken into account when design |
The difference between ocean and air | temperature also tends to create heavy morning fog duri |
The park has a humus soil structure and hot | temperature persists throughout the year. |
e pore, the surrounding mineralogy, and the | temperature and pressure conditions during cementation. |
ed with more than one meter of snow and the | temperature dropped below −30 C°. |
ow rate, co-solvent composition, and column | temperature. |
EP permits geometry optimisation and finite | temperature molecular dynamics with implicit symmetry a |
ce values in even very small grids, and its | temperature coefficient of resistance is not excessive. |
7, a salt concentration around 2.5%, and a | temperature around 98oC. |
plus resists shock, vibration, and extreme | temperature fluctuations. |
ion from moisture, the elements, and sudden | temperature changes. |
It prefers a pH of and a | temperature of 23°C to 27°C. |
0 pH, a water hardness of 2 - 25 dGH, and a | temperature range of 68 - 77°F (20 - 25°C). |
EPU), the BioGloveBox (BGB), and additional | Temperature Control Units (TCUs) for storing experiment |
0 pH, a water hardness of 2 - 25 dGH, and a | temperature range of 72 - 79°F (22 - 26°C). |
ttention because of its small size and high | temperature of 17,000 K (16,700 °C; 30,100 °F). |
sure at the landing site was 91 atm and the | temperature was 736 K. |
0 pH, a water hardness of 2 - 25 dGH, and a | temperature range of 73 - 77°F (23 - 25°C). |
0 pH, a water hardness of 2 - 25 dGH, and a | temperature range of 77 - 83 °F (25 - 28 °C). |
phosphate rich granite pegmatites and high | temperature hydrothermal veins. |
due to the mountainous conditions and cold | temperature. |
th, protection from drought and destructive | temperature changes, and the development of a healthy c |
ding on the design of the vaporizer and the | temperature at which it is set. |
nly distributed between the seasons and the | temperature range is defined as temperate, with cooling |
0 pH, a water hardness of 2 - 25 dGH, and a | temperature range of 72 - 78°F (22 - 26°C). |
Based on its low mass and estimated | temperature of around 50 K, the planet is thought to co |
The total of Kinetic Heating and Adiabatic | temperature change (caused by Adiabatic compression) is |
point at which melting is observed and the | temperature constant is the melting point of the sample |
Heating is commenced, and the | temperature ranges at which the sample melts can be the |
speedometer and the other a fuel and water | temperature gauges. |
nights when the weather is colder, and air | temperature reaches -6°C or lower. |
uminosity (Lbol) ~ 1.5 x 1040 erg s−1 and a | temperature of 0.26 keV. |
in the valve, the condensation and changing | temperature of the metal can cause an untreated valve t |
tate, depending on manufacturer and working | temperature range. |
areas of aerospace medicine and physiology, | temperature regulation, exercise physiology, and clinic |
nearity, hysteresis, repeatability, and the | temperature drifts of zero and sensitivity - electronic |
pH, a water hardness of 15 - 30 dGH, and a | temperature range of 64 - 82 °F (18 - 28 °C). |
laints about the noise of the works and the | temperature. |
e which collects humidity, wind and surface | temperature information and communicates with a data re |
speeded up by the high humidity and steady | temperature - resulting in an El Dorado 8 year old rum, |
hemical composition of the seawater and its | temperature. |
ade up of extremely tiny particles, and its | temperature is over 100 K, which is unusually high. |
h an Atlantic maritime influence and strong | temperature variations. |
ess, optical fiber communications, and high | temperature applications. |
and a | temperature of 22-26 °C (72-79 °F). |
ne reduces the propellant's flash and flame | temperature without sacrificing chamber pressure. |
0 pH, a water hardness of 2 - 25 dGH, and a | temperature range of 72 - 79 °F (22 - 26 °C). |
he earthquake, as roads are blocked and the | temperature is falling due to the onset of winter. |
Doublet Pool is 8 feet (2.4 m) deep and its | temperature is approximately 194.4 °F (90.2 °C). |
At high alkali and high | temperature (above 210 °C) environments DTPMPA has bett |
easing pressure and salinity and decreasing | temperature. |
e adsorption, absorption, membranes and low | temperature systems achieved by refrigeration or expans |
meter is likely to be less than 10cm) and a | temperature gradient of 300C between the top and bottom |
pressure areas are centers of warm and cold | temperature anomalies. |
H of 6.8 to 7.8, a hardness of 20 DH, and a | temperature of 10° to 25° C (50° to 77° F). |
ons including very high rainfalls, and high | temperature year round. |
compression) increases its pressure and its | temperature at the same time. |
and the | temperature is raised a further 3-5°C (37-41°F). |
mites prefer areas of high humidity and low | temperature, and can be controlled by removing and dest |
as a result of high bridge loading and low | temperature. |
onics, i.e. the science high speed and high | temperature flow. |
may have been used for display and/or body | temperature regulation. |
lite is formed in high pressure and/or high | temperature environments. |
and critical care products, anesthesia and | temperature monitoring supplies, birthing and neonatal |
Angola's average | temperature on the coast is 60 °F (16 °C) in the winter |
mate is hot and humid with an annual median | temperature of 24.9 degrees Celsius and well-defined se |
The annual mean | temperature is approximately 10 °C (50.0 °F). |
The annual average | temperature on Garnedd Uchaf is relatively cold, rangin |
o an altitude of 645 ms, the annual average | temperature of 17 °C. |
Average annual air | temperature is 63 °F (17 °C). |
The city's annual mean | temperature is 12 ℃, precipitation 80 millimeters. |
climate is tropical, with an annual median | temperature of 26.6 °C (79.9 °F) and a median precipita |
Iquitos, Peru, 126 m, annual mean | temperature 26.2°C |
The annual mean | temperature is 27.3 °C. |
The annual average | temperature is about 11.2 °C (52 °F), with an average m |
Annual average | temperature range from 9~41°C. |
The annual average | temperature of the island is 5.3 °C (41.5 °F), with pre |
and S. A. Pulinets showed that anomalies in | temperature and humidity had been observed before the e |
For example, at any given | temperature, propane has the highest vapor pressure of |
At any given | temperature, the amount of energy needed to create a va |
the reactor, which is approaching critical | temperature, detonates. |
is cooled below the appropriate transition | temperature, it becomes superconducting. |
astatic malt extract to an appropriate mash | temperature and holding it for a time so the extract's |
from october to march or mid april, having | temperature around freezing point, all day fog is there |
h the universe approaching arbitrarily high | temperature and maximal entropy as the end of the colla |
The ice cores provide a proxy archive of | temperature and atmospheric constituents that help to u |
d, some CVD silicon oxide processes are low | temperature processes. |
the scientific equipment are conductivity, | temperature, and depth (CTD) sensors, three side-scan s |
iminate the kelvin as it can be argued that | temperature simply expresses the energy per particle pe |
ps were being added for aroma, fermentation | temperature, or how the beer was supposed to taste. |
which allows the extraction of aromas, low | temperature reduction of juices and the production of f |
inic prisms that melt to an oil around room | temperature which may turn yellow to dark red upon expo |
h hot water for soaking (usually around the | temperature of 39°C (104°F)), the other a 2/3 Olympic s |
he Aniline point of a oil is defined as the | temperature at which equal volumes of aniline (C6H5NH2) |
e specific characteristics (such as surface | temperature, composition and radius) cannot be determin |
eating device which uses boiling oil as the | temperature regulator. |
es which can get extremely hot such as high | temperature steam lines. |
excellent storage location for beers as the | temperature never rose above an ideal 56 degrees Fahren |
ree independent variables (such as voltage, | temperature, and response speed). |
a heating block or an oil bath, and as the | temperature increases the sample is observed to determi |
r in that its dissociation decreases as the | temperature decreases. |
This can take up to a month, as the | temperature must be cold to allow settling. |
The CoP increases as the | temperature difference, or "Lift", decreases between he |
on due to external influences such as wind, | temperature, mechanical stress. |
are formed, with more of the latter as the | temperature increases; PuB4 has the tetragonal structur |
on becomes a stronger reducing agent as the | temperature increases. |
ed and technical parameters such as working | temperature, gas atmosphere, slag viscosity, etc. |
It occurs as low | temperature unmixing product in serpentinites and as re |
As the | temperature of the fire increased, some of these casks |
uses a strip that coils and uncoils as the | temperature changes. |
GDs are calculated each day as maximum | temperature plus the minimum temperature divided by 2 ( |
rix's Ice Pill than most other Germs as his | temperature usually causes him to defrost moments later |
As the | temperature is increased, the strands begin to separate |
ting and final temperatures, as well as the | temperature gradient (in units per minute) to be progra |
Cellular stresses, such as increased | temperature, can cause proteins in the cell to misfold. |
can be related to factors such as altitude, | temperature, depth, ocean proximity and soil humidity. |
lay meteorological fields such as pressure, | temperature, or wind speeds. |
As the | temperature of the fire builds, the collected layer of |
quation approaches negative infinity as the | temperature approaches zero. |
ble process because variables such as time, | temperature, alloy, fixturing, and part positioning are |
ood acid-base balance and pH change as body | temperature changes. |
ured on a continuous scale, such as weight, | temperature, thickness etc. |
f the lower excited state, increases as the | temperature increases. |
°C (104 °F), New Delhi was relieved as the | temperature slid down to 37.2 °C (99.0 °F). |
of the atmospheric column such as pressure, | temperature, wind speed and wind direction (thus derivi |
Additionally, as the | temperature gets colder, the fibers in the log become m |
ctly cause the compressor to turn on as the | temperature rises, will have absolutely no effect on an |
w the calculation of parameters such as the | temperature at chemical freeze-out Tch and hadron chemi |
rved in structure measurements such as room | temperature NMR-the pair of hydroxy-substitituted quino |
Also referred to as a | Temperature Vacuum Switch (TVS) or Thermal Vacuum Valve |
ior as well as other functions such as body | temperature), this may explain how scents influence agg |
dity date with other solutions such as time | temperature indicators. |
an event horizon and so can be associated a | temperature. |
duces maximum thrust for the assumed (flex) | temperature. |
nol and acetic acid, especially at elevated | temperature. |
sually sliced paper thin and served at room | temperature or slightly chilled. |
induced by tail immersion in hot water at a | temperature of 55 degrees Celsius (minimum effective do |
otor will be hot enough , it will boil at a | temperature lower than water, thus it is impractical. |
ers can also be used) and incubated at room | temperature for the desired time to allow NO to accumul |
been isolated as a stable molecule at room | temperature (as of 2003). |
ne is a white crystalline solid at standard | temperature and pressure. |
The milk is boiled for at moderate | temperature for 10 minutes and then rennet and salt is |
ainst a primary thermometer at least at one | temperature or at a number of fixed temperatures. |
30% sulfur is pressure leached at elevated | temperature and pressure in an ammoniacal solution to p |
n is equal to the solubility of CO2 at that | temperature and pressure. |
es: a conventional disordered phase at high | temperature, and a low-temperature phase with quasi-lon |
gas plasma, created within a vacuum at room | temperature . |
TBE is a liquid at room | temperature, and is used to separate mineral ores from |
a very close match to that of water at room | temperature. |
ization and heat with semiconductors at low | temperature was an original idea by Lawrence M. Krauss, |
y be sold in licensed liquor stores at room | temperature. |
At standard | temperature and pressure, ethane is a colorless, odorle |
roduct of the oxidation of ethylene at high | temperature in the presence of silver oxide catalyst, f |
sesite is a secondary mineral formed at low | temperature in hydrothermal mercury deposits. |
action of methyl iodide on zinc at elevated | temperature or on zinc sodium alloy. |
d to use concentrated sulfuric acid at high | temperature and the relatively long testing time (an ho |
The salt eventually decomposes at room | temperature into NO2 and O2. |
d is almost creamy and can be gooey at room | temperature. |
Therefore, neopentane is a gas at room | temperature and atmospheric pressure, while the other t |
his chemical process usually occurs at high | temperature, at high pressure, or in the presence of a |
pmental stage), being infective, at optimal | temperature and humidity, four weeks after secreted in |
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